Pairing properties of the double-β emitter Cd116

D. K. Sharp; S. J. Freeman; B. D. Cropper; P. J. Davies; T. Faestermann; T. M. Hatfield; R. Hertenberger; S. J. F. Hughes; P. T. Macgregor; H.-f. Wirth

doi:10.1103/PhysRevC.100.024329

Pairing properties of the double-β emitter Cd116

D. K. Sharp, S. J. Freeman, B. D. Cropper, P. J. Davies, T. Faestermann, T. M. Hatfield, R. Hertenberger, S. J. F. Hughes, P. T. Macgregor, H.-f. Wirth

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Abstract

The pairing properties of the neutrinoless double-β decay candidate 116Cd
have been investigated. Measurements of the two-neutron removal reactions on isotopes of 114,116Cd have been made in order to identify 0+ strength in the residual nuclei up to ≈3 MeV. No significant L=0 strength has been found in excited states indicating that the Bardeen-Cooper-Schrieffer (BCS) approximation is a reasonable basis to describe the neutrons in the ground state. This approximation avoids complications in calculations of double-
β decay matrix elements that use the quasiparticle random-phase approximation (QRPA) techniques. However this is not the case for the protons, where pair vibrations are prevalent and the BCS approximation is no longer valid, complicating the use of traditional QRPA techniques for this system as a whole.

Original language	English
Journal	Physical Review C
Volume	100
Issue number	2
Early online date	21 Aug 2019
DOIs	https://doi.org/10.1103/PhysRevC.100.024329
Publication status	Published - 2019

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title = "Pairing properties of the double-β emitter Cd116",

abstract = "The pairing properties of the neutrinoless double-β decay candidate 116Cdhave been investigated. Measurements of the two-neutron removal reactions on isotopes of 114,116Cd have been made in order to identify 0+ strength in the residual nuclei up to ≈3 MeV. No significant L=0 strength has been found in excited states indicating that the Bardeen-Cooper-Schrieffer (BCS) approximation is a reasonable basis to describe the neutrons in the ground state. This approximation avoids complications in calculations of double-β decay matrix elements that use the quasiparticle random-phase approximation (QRPA) techniques. However this is not the case for the protons, where pair vibrations are prevalent and the BCS approximation is no longer valid, complicating the use of traditional QRPA techniques for this system as a whole.",

author = "Sharp, {D. K.} and Freeman, {S. J.} and Cropper, {B. D.} and Davies, {P. J.} and T. Faestermann and Hatfield, {T. M.} and R. Hertenberger and Hughes, {S. J. F.} and Macgregor, {P. T.} and H.-f. Wirth",

year = "2019",

doi = "10.1103/PhysRevC.100.024329",

language = "English",

volume = "100",

journal = "Physical Review C",

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publisher = "American Physical Society",

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TY - JOUR

T1 - Pairing properties of the double-β emitter Cd116

AU - Sharp, D. K.

AU - Freeman, S. J.

AU - Cropper, B. D.

AU - Davies, P. J.

AU - Faestermann, T.

AU - Hatfield, T. M.

AU - Hertenberger, R.

AU - Hughes, S. J. F.

AU - Macgregor, P. T.

AU - Wirth, H.-f.

PY - 2019

Y1 - 2019

N2 - The pairing properties of the neutrinoless double-β decay candidate 116Cdhave been investigated. Measurements of the two-neutron removal reactions on isotopes of 114,116Cd have been made in order to identify 0+ strength in the residual nuclei up to ≈3 MeV. No significant L=0 strength has been found in excited states indicating that the Bardeen-Cooper-Schrieffer (BCS) approximation is a reasonable basis to describe the neutrons in the ground state. This approximation avoids complications in calculations of double-β decay matrix elements that use the quasiparticle random-phase approximation (QRPA) techniques. However this is not the case for the protons, where pair vibrations are prevalent and the BCS approximation is no longer valid, complicating the use of traditional QRPA techniques for this system as a whole.

AB - The pairing properties of the neutrinoless double-β decay candidate 116Cdhave been investigated. Measurements of the two-neutron removal reactions on isotopes of 114,116Cd have been made in order to identify 0+ strength in the residual nuclei up to ≈3 MeV. No significant L=0 strength has been found in excited states indicating that the Bardeen-Cooper-Schrieffer (BCS) approximation is a reasonable basis to describe the neutrons in the ground state. This approximation avoids complications in calculations of double-β decay matrix elements that use the quasiparticle random-phase approximation (QRPA) techniques. However this is not the case for the protons, where pair vibrations are prevalent and the BCS approximation is no longer valid, complicating the use of traditional QRPA techniques for this system as a whole.

U2 - 10.1103/PhysRevC.100.024329

DO - 10.1103/PhysRevC.100.024329

M3 - Article

SN - 2469-9985

VL - 100

JO - Physical Review C

JF - Physical Review C

IS - 2

ER -

Pairing properties of the double-β emitter Cd116

Abstract

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